Soil Scientists

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New Advances of Silicon in the Soil-Plant System

- December 30, 2025

Recent advances in the understanding of silicon in the soil–plant system highlight its emerging role as a beneficial element for sustainable agriculture and environmental resilience. Although not classified as an essential nutrient for most crops, silicon significantly enhances plant growth, productivity, and stress tolerance. Modern research reveals that silicon improves soil physical properties by promoting aggregation, enhancing water retention, and reducing nutrient leaching, thereby creating a more favorable root environment. In plants, silicon uptake and transport mechanisms have been clarified at the molecular level, with the identification of specific silicon transporter genes that regulate its accumulation in roots and shoots. Silicon deposition in plant tissues strengthens cell walls, improves mechanical stability, and enhances resistance against pests, diseases, drought, salinity, heavy metal toxicity, and temperature extremes. Advances in nano-silicon fertilizers and ...

Soil Bioresource Applications and Environmental Sustainability

- December 29, 2025

Agriculture is the backbone of global food security and rural livelihoods, playing a vital role in economic development, environmental stewardship, and social well-being. Modern agriculture integrates traditional knowledge with scientific innovations to enhance crop productivity, soil fertility, and water-use efficiency while minimizing environmental impacts. Sustainable agricultural practices such as conservation tillage, crop diversification, integrated nutrient management, and precision farming help maintain soil health, conserve biodiversity, and improve resilience to climate change. Advances in biotechnology, digital agriculture, and climate-smart farming enable farmers to optimize inputs, reduce losses, and adapt to changing agro-climatic conditions. Agriculture also contributes to ecosystem services by supporting carbon sequestration, nutrient cycling, and landscape sustainability. By promoting resource-efficient and environmentally responsible farming systems, agriculture...

Soil Bioresource Applications and Environmental Sustainability #soil #re...

- December 29, 2025

Sustainability In Agrifood Value Chains #soil #researchers #ScienceAward...

- December 27, 2025

Belowground Interactions and Implications for Nutrient Use Eco-Efficiency in Cropping Systems

- December 26, 2025

Belowground interactions play a critical role in determining nutrient use eco-efficiency in cropping systems by regulating how plants access, transform, and retain essential nutrients in the soil environment. These interactions involve complex networks among plant roots, soil microorganisms, and soil physical and chemical properties. Root architecture and exudation patterns influence microbial activity by supplying carbon substrates that stimulate beneficial microbes such as mycorrhizal fungi and plant growth–promoting rhizobacteria, which enhance nutrient mobilization, particularly of nitrogen and phosphorus. At the same time, microbial processes such as mineralization, immobilization, and nitrification govern nutrient availability and losses. In diversified cropping systems, including intercropping and crop rotations, complementary root traits and temporal niche differentiation reduce competition and improve overall nutrient capture. Improved belowground biodiversity also enhan...

Implications for Nutrient Use Eco-Efficiency in Cropping System #soil #w...